KR101445454B1 - Change of state indicator for a jump display mechanism - Google Patents

Abstract

Between the stable display states of a predetermined size movable close to the display area of the size facing the auxiliary display part 3 which is discontinuously driven by the drive element 7 against the elastic returning means 19, A state change indicator (2) device for a clock display mechanism (30) by jumps of a predetermined magnitude for display is disclosed.
The drive pinion 9 is configured such that when the beak 14 passes between the two consecutive tooth spaces 12 of the star wheel 10 by the teeth 11 between the spaces 12 The star wheel 10 is rotated in a discontinuous manner to control each jump against the beak 14 of the first arm 15 of the lever 13 which controls the pivoting and returning of the indicator 2 And the lever 13 includes the second support arm 16 of the indicator 2 or controls the displacement thereof.

Description

[0001] The present invention relates to a change indicator for a jump indicator,

The present invention relates to a mechanical state change indicator device for a semi-instantaneous or instant indication mechanism by jumps of a predetermined size driven by a movement element of a movement or a clock, The apparatus for displaying an indication of a transition between stable display states comprises a state change indication indicator which is movable in relation to the display state of the predetermined size in relation to the auxiliary state change indication, And the indicator is indirectly and discontinuously driven by the drive element against the elastic return means included in the apparatus.

The invention also relates to a semi-immediate or immediate indication mechanism by jumps of a predetermined magnitude driven by a drive element of a movement or watch comprising such a mechanical state change indicator device.

The invention also relates to a watch movement comprising such a semi-immediate or immediate display mechanism with jumps of a predetermined size or including a mechanical state change indicator device.

The invention also relates to a timepiece including a semi-immediate or immediate indication mechanism by movement or such a predetermined size of jumps, or a mechanical condition change indicator device.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of clocks and scientific apparatuses, and more particularly to clocks and scientific apparatuses equipped with semi-immediate or immediate jump indicators.

A semi-immediate or immediate jump indicator for a clock or scientific device is designed to display at least one value of a first magnitude in the aperture.

This value is discontinuous and varies at the time of the jump, which is generally periodic, controlled by the instrument or by a signal.

Such a magnitude indication is often supplemented by a different size indication by other means, such as by jumping or by positioning the hands of the watch, for example, facing the dial. Therefore, CH 691 833 A5 VACHERON & CONSTANTIN SA describes a display module comprising a time display portion and a backward minutes display portion, the mechanism of which is driven by a cannon pinion. The jumping display portion includes an opening through which a number on the hour disc can be seen and a backward minute display portion includes a clock hand which is eccentrically associated with the display module, Cooperates with an arc-shaped scale having an angular range of less than 180 degrees.

In general, when the period of the first magnitude is large relative to the period with respect to other indications, if the other indications allow the user to observe that the point of the jump is far enough to avoid any ambiguity, Knows how to estimate the exact value of the first magnitude. For example, assuming that the minute indicator is displaying that the first magnitude is at the time and the other display size is the minute, but the time of the jump is sufficiently spaced apart, the user may select the time varying jump Understand the location of the point of view: For example, the user may decide 11:05 or even 11:45 without effort. Above all, if the user does not see the display at the previous time points, the user does not have the means to know whether the jump will occur or whether the jump has already occurred, More difficult. For example, if the user is viewing a value of 12 for a poem and a value of 0 for a minute, then the user must know whether the actual time is at noon (just after the jump occurred) or 12:59 Just before). There is no simple solution for the user to instantly determine if a jump has already occurred or is in progress.

The present invention suggests assuring the user when referring to an indication of a semi-immediate or immediate jump indicator that the user can instantly determine whether a jump has already occurred or is in progress.

In particular, the present invention proposes an appropriate solution in the case of a clock at the time of a jump.

On the basis of this, the present invention relates to a mechanical state change indicator device for a semi-immediate or immediate indication mechanism by jumps of a predetermined magnitude driven by a movement element of a movement or a clock, Wherein the apparatus comprises a state change indication indicator for indicating a transition between stable display states, the state change indication indicator being movable in proximity to the display area of the predetermined size in relation to the auxiliary state change indicator, Wherein the indicator is driven indirectly and discontinuously by the driving element against the elastic return means that the device comprises, the device being characterized in that it is driven directly or indirectly by the driving element And includes a drive pinion adapted to , The drive pinion is controlled by a discontinuous method to control the pivoting movement of the star wheel to control each jump of the semi-instantaneous or immediate indication mechanism against a jumper applied by the elastic return means against the star wheel And the jumper is pivotally moved by a tooth positioned between the spaces each time the beak passes between two successive tooth spaces included in the star wheel, And a lever for controlling the return of the lever, wherein the lever includes the first support arm of the beak and the second support arm of the indicator or controls the displacement of the indicator.

According to an aspect of the invention, the lever is constructed of a single member and pivots about a pivot axis and returns to a stable, balanced position corresponding to the stop of the beak in one of the tooth spacings, Is supported by two successive teeth of the star wheel by the action of the elastic return means formed by the spring of the star pin, and the lever is rotated about the star pivot axis by the action of the drive pinion driven by the drive element And is spaced from the stable equilibrium position by the influence of one pivotal motion of the star wheel.

According to another feature of the invention, the lever is articulated and the first support arm of the beak is returned to a stable equilibrium position corresponding to the stop of the beak in the space of one of the tooth spaces, Wherein the star is supported by two successive teeth of the star wheel by the action of the elastic return means formed by at least one spring, and the lever is moved by the action of the drive pinion driven by the drive element, The pivoting movement of the first arm drives the pivoting movement of the second arm integral with the first arm, and the second arm itself is in a state of being displaced by the flag and is articulated to the third pivotal support arm of the flag.

According to another aspect of the invention, the second arm of the lever includes a rack arranged to pivot the support pinion of the indicator in an interdependent manner.

According to another aspect of the present invention, the indicator includes a state change indication flag, the state change indication flag is movable in relation to the auxiliary state change indicator formed by the state change aperture, And a second sector indicating a stable display state without transition in progress.

According to another feature, the device is a state change indicator for a semi-immediate or immediate jump indicator mechanism driven by a drive element formed by a cannon pinion of a clock movement, And for driving the star wheel discontinuously in order to control the pivotal movement of the star wheel and the jumping of the star wheel by the action of a jumper that actuates the instantaneous jumping of the indicator mechanism immediately or semi-instantly And a drive pinion mounted to pivotally move in an interdependent manner with a minute wheel associated with the cannon pinion.

The present invention also relates to a semi-immediate or immediate indication mechanism by means of jumps of a predetermined magnitude driven by a drive element of a movement or watch comprising a mechanical state change indicator device, The jumping is performed in accordance with the reciprocating pivotal movement of the indicator for each jump of the indicator immediately.

According to an aspect of the invention, the semi-immediate or immediate jump indicator is a semi-immediate or immediate jump indicator and includes such an apparatus.

The present invention also relates to a clock movement comprising a semi-immediate or immediate indication mechanism by jumps of a predetermined size, driven by such a state change indicator indicator device or comprising such a state change indicator indicator device, And the movement includes a driving element for driving the state change indicator device.

The invention also relates to a watch comprising such a semi-immediate or immediate indication mechanism by means of such movements or jumps of a predetermined size driven by such a state change indicator device or comprising such a state change indicator device And the clock includes a driving element for driving the state change indicator device.

Other features and advantages of the present invention will become more apparent from the following detailed description with reference to the accompanying drawings, in which:

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic front view of a watch with a mechanical state change indicator device according to the invention, in a first embodiment for a semi-immediate or immediate-jump indicator, in particular for the indication at the time of the jump; The clock is shown as representing 12:30, the number of hours is displayed within the display window opening, the minutes are indicated by the needles facing the dial; The special aperture located at the bottom of the city display window allows the flag to be briefly viewed, which is uniformly visualized in the first bright color at the time of the problem;
Figure 2 shows the same mechanism at 12:53; Immediately before the time-jump display occurs as indicated by the flag, the flag shows the first portion of the bright color and the second portion of the dark color through the aperture;
Figure 3 shows the same mechanism at 13: 0; The aperture is completely filled by the second darker portion of the flag, indicating that the poem jump indication has not yet occurred;
Figure 4 shows the same mechanism at 13: 4; The aperture is completely filled by the first light colored portion of the flag, indicating that a time jump indication has occurred;
Figure 5 is a schematic partial front view of this flag fixed to the end of the second arm of the lever, which lever is returned by a spring, the first arm of which lever cooperates with the star wheel in the rest position, Driven indirectly from the cannon pinion via the drive pinion and corresponds to the indication of Figure 1;
Figure 6 is similar to Figure 5 and corresponds to the indication of Figure 2; Immediately before the jump occurs, the second arm of the lever is pushed back halfway between the space and the end of the tooth portion of the star wheel;
Figure 7 is similar to Figure 6 but corresponds to Figure 3; The jump is in an imminent state and the second arm of the lever is pushed back by the end of the teeth of the star wheel;
Figure 8 shows a mechanism with a visual disc for display in the display window, although in the same position as in Figure 5, the disc at this time including slots enabling the appearance of the flag;
Figure 9 shows details of the mechanism of the second embodiment of the present invention, wherein the first arm of the flag carrier lever is articulated;
Figure 9a shows a variation of another joint connection;
Figure 10 shows a third embodiment of the present invention in a manner similar to Figure 5.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of clocks or scientific apparatuses, and more particularly to the field of clocks or scientific apparatuses, including semi-immediate or immediate jump indicators.

More particularly, the present invention is herein described in a non-limiting application of the present invention to a clock including a device upon jumping. Those skilled in the art will readily be able to dedicate the contents of the present invention to similar apparatuses.

The present invention is directed to a mechanical state change indicator device 1 for semi-immediate or immediate indication mechanism 30 by jumps of a predetermined magnitude driven by a movement element 60 of a movement or watch 1000 .

The purpose of this device 1 is to perform an indication of transition between two stable states of the display of this predetermined size before and after the jump. This indication allows the user to see the indicator for the absence of the jump, the ongoing jump and the executed jump, and the executed jump returns to the first instance of the absence of the jump.

On the basis of this, for the indication of the transition between the two stable states of the indication of the predetermined size, the device 1 comprises a state change indication indicator 2, Is movable in the vicinity of the display area of the predetermined size related to the change display means (3). This indicator 2 is indirectly and discontinuously driven by the driving element 7 against the elastic return means 19 which the device 1 includes.

According to the invention, the device (1) comprises a drive pinion (9) adapted to be driven directly or indirectly by such a drive element (7). The drive pinion 9 is driven by the elastic return means 19 to control each jump of the indicator mechanism 30 immediately or immediately against the jumper 26 which is applied against the star wheel 10. [ The star wheel 10 is driven in a discontinuous manner to control the pivotal movement of the star wheel 10. [

The jumper 26 is configured such that when the beak 14 passes between two successive tooth spaces 12 that the starwheel 10 includes by the tooth 11 positioned between the spaces 12 Is preferably formed by the beak 14 of the lever 13 which controls the pivotal movement of the indicator 2 and the return of the position. The lever 13 preferably includes a first support arm 15 of the beak 14 and a second support arm 16 of the indicator 12, The displacement of the indicator 2 is controlled by a joint connecting mechanism.

1 to 8, the lever 13 is constructed as a single member and pivots about the pivot axis D4 and stops the rotation of the beak 14 in the tooth space 12. In the first embodiment, And the lock is supported by the two successive toothed portions 11 of the star wheel 10 by the action of the elastic returning means 19. As a result, These are preferably formed by at least one spring.

The lever 13 is moved from its stable equilibrium position by the influence of the pivoting movement of the star wheel 10 about the star pivot axis D3 by the action of the drive pinion 9 driven by the drive element 7 It is separated.

9, the lever 13 is articulated, and in a similar manner the first support arm 15 of the beak 14 is brought into engagement with the stop 14 of the beak 14 in the tooth space 12. In the second embodiment, Is returned to the corresponding stable equilibrium position and is supported by two successive teeth (11) of the star wheel (10) by the action of the elastic return means (19). The lever 13 is separated from its stable equilibrium position by the action of the pivotal movement of the star wheel 10 by the action of the drive pinion 9 driven by the drive element 7. [ The pivoting movement of the first arm 15 drives the pivoting movement of the second arm 16 integral therewith and the second arm 16 itself is connected to the third pivot support arm 17, And is connected to the carrier of this indicator 2 or to the flag forming this indicator 2.

10, the second arm 13 of the lever includes a rack 40 which is arranged to pivot the support pinion 41 of the indicator 2 in an interdependent manner. In the embodiment shown in the drawing, the indicator 2 has a clock needle 42 or a disk or the like, and the clock needle 42 or the disk is formed by a guide mark 43, for example, The auxiliary state change display section 3 is movable in relation to the auxiliary state change display section 3. The guide mark 43 can distinguish the stable state from the state before the jump. Thus, the position of the indicator 2 provides the user with a visual indicator of the imminence of the jump or the fulfillment of this jump. The combination of these movements of the rack 40 and the pinion 41 imparts a reciprocating motion to the clock hands 42 facing the guide marks 43.

It is understood that this arrangement allows the position of the state change indicator 1 to be easily moved to use the empty area of the dial. For example, when the display of the hour is performed on a small dial centered at 6 o'clock on the large dial containing the clock, the indicator 1 can advantageously be moved within the upper area of the dial.

In one advantageous embodiment, the device 1 comprises a state change indicator (not shown) for the indicating mechanism 30 in a semi-immediate or immediate jump, driven by a drive element 7 formed by a cannon pinion of the watch movement 100, (1). The apparatus 1 includes a cannon pinion for discontinuously driving the star wheel 10 to control the pivot movement of the star wheel 10 and the jumping of the star wheel 10 by the action of the jumper 26 7 such that it is pivotally interdependent with the wheel 8 in engagement with the pinion wheel 8. The jumper 26 is urged by the elastic returning means 19 to the star wheel 10 and operates the instantaneous jumping of the indicator mechanism 30 immediately or immediately.

In this embodiment, during the jump of the star wheel 10, the cannon pinion 7 is held by the jumper 20 returned by the spring 21 by the drive pinion 9 and the star wheel 10, The star wheel 22 drives the star wheel 5 and the disk 5 is driven by the number of the flag openings 6 And each flag opening 6 is in turn overlapped with an auxiliary state change display 3 formed here by the state change opening 3 so as to allow the indication of the indicator 2 formed by the flag 2 Position.

Here, the minutes display is generated by the clock hands 23 on the small dial positioned at 6 o'clock on the large dial included in the clock 1000, and the clock hands 23 are rotated clockwise (as shown in Fig. 3) 23) is located at 12 o'clock on the small dial, it is advantageous to have a center so that the contents of the openings (25, 3) can be read.

In a further variant not shown in the drawing, the device 1 comprises a semi-instantaneous for days of the month driven by a drive element 7 formed by a cannon pinion of a watch movement 100 Or a state change indicator (1) for the immediate indication mechanism (30). As described above, the device 1 is provided with the elastic returning means 19 for pivoting the star wheel 10 by the action of the jumper 26, which is applied against the star wheel 10, 10 directly or indirectly with the cannon pinion 7 for discontinuously driving the star wheel 10 to control the jumping of the star wheel 10 and to operate the jumping of each of the operations of the indicator mechanism 30 immediately or immediately And a drive pinion 9 mounted to pivotally move in an interdependent manner with a day wheel. During the jump of the star wheel 10, by the drive pinion 9 and the star wheel 10, the cannon pinion 7 periodically drives the star wheel held by the jumper returned by the spring, Wherein the one disk 60 has a flag opening 6 as many as the number of time display positions and each flag opening 6 is adapted to allow indication of the indicator 2, (3) formed by the auxiliary state change display part (3).

In the first embodiment of the present invention shown in Figs. 1 to 8, the indicator 2 includes a flag 2. In a non-limiting embodiment illustrated by these figures, this flag 2 includes a first sector 2A representing progressive transitions and a second sector 2B representing a stable display state without transition in progress do. In this first embodiment, the auxiliary state change display section 3 is also formed by the state change opening 3.

Figure 5 shows an indicator flag 2 that is fixed on the indicator blade 18 at the end of the second arm 16 of the lever 13. [ The first arm 15 of the lever 13 cooperates with the star wheel 10 in the rest position and the star wheel is moved indirectly through the drive pinion of the star wheel 10 from the cannon pinion 7, .

The lever (13) is deflected by the spring (19).

As can be seen in Figures 6 and 7, the lever 13 controls the flag 2, and in the first embodiment of Figures 5 to 8, this flag 2, And is integral with one of its ends at the level of the second arm 16 of the lever 13 for placing the following:

At least a portion of the first sector 2A representing the ongoing transition when the beak 14 is supported by the single tooth 11 of the star wheel 10,

- a second sector (2B) exhibiting a stable display state each time the beak (14) is stopped in the tooth space (12) and is supported by two successive toothed parts (11) of the star wheel (10) just.

Figures 2 and 3 illustrate a first case; In Figure 2, both a portion of the first sector 2A and a portion of the second sector 2B are visible in the aperture 3, and only the first sector (Figure 3) corresponding to the non- 2A.

Figs. 1 and 4 show a second stable equilibrium case, wherein only the second sector 2B appears within the aperture.

5 to 8, the lever 13 is constituted by a single member, which pivots about the pivot axis D4 and acts on the action of the elastic return means 19 formed by the at least one spring To a stable equilibrium position corresponding to the stop of the beak 14 in the tooth space 12, where the beak is supported by two successive teeth 11 of the star wheel 10.

The lever is separated from the stable equilibrium position by the influence of the pivoting movement of the star wheel 10 about the star pivot axis D3 by the action of the drive pinion 9 driven by the drive element 7. [

In the second embodiment, as is evident in Fig. 9, the lever 13 is articulated. The first support arm 15 of the beak 14 is returned to a stable equilibrium position in the tooth space 12 corresponding to the stop of the beak 14 and is resiliently deformed by at least one spring Is supported by two successive toothed portions (11) of the star wheel (10) by the action of the return means (19). The beak 14 forming the jumper 26 collects information of the jumping imminent on the drive star wheel 10 and the lever 13 pivoting about the axis 34 is driven by the drive element 7 The pivotal movement of the first arm 15 is separated from the stable equilibrium position due to the influence of the pivot movement of the star wheel 10 by the action of the drive pinion 9 which is formed integrally with the first arm 15, 2 arm 16 and the second arm 16 itself is articulated to the third pivot support arm 17 and the third pivot support arm 17 is provided with a flag 2 do. Here, the third arm 17 with the lever 13 and the indicator blade 18 is located in two different planes, and in another variant it can be set at the same level. In the illustrated embodiment, the stud 31 keeps the indicator blade 18 high and limits its stroke. In other embodiments, the bridge or plate may perform the same function. The indicator blade 18 pivots about an axis D5 here about the stud 32 and in an unillustrated embodiment the indicator blade 18 can be a stone-set .

FIG. 9A shows another joint connection modification simplified compared to the previous joint connection.

In an advantageous embodiment, the device 1 is a further autonomous mechanism comprising a bridge, and such a drive pinion 9, which is directly driven on this autonomous mechanism or arranged to be indirectly driven by the drive element 7, Pivot. This bridge is a carrier such as lever 13 or the like. As described above, in order to control each jump of the display mechanism 30 in a semi-immediate or immediate manner against the jumper 26 applied against the star wheel 10 by these elastic return means 19, The drive wheel 9 drives the star wheel 10 discontinuously to control the pivotal movement of the star wheel 10. The jumper 26 is configured such that when the beak 14 passes between two successive tooth spaces 12 that the starwheel 10 includes by the tooth 11 positioned between the spaces 12 Is formed by the beak 14 of the lever 13 which controls the pivotal movement of the indicator 2 and the return of the position. The lever 13 includes the first support arm 15 of the beak 14 and the second support arm 16 of the indicator 2 or controls the displacement of the indicator 2.

More generally, the present invention relates to a semi-immediate or immediate jump indication mechanism 30 driven by a movement element 7 of a movement 1000 or a movement 100 comprising a state change indicator device 1, This implements a jump in accordance with the reciprocating pivoting movement of the indicator 2 for each jump of the indicator device 30 immediately or immediately.

In the first embodiment, the pivoting movement of the indicator 2 in the forward direction is pivoted forward or backward in the state change opening 3 before the indicator mechanism 30 performs its own jumping, Sector 2A at least partially. The return pivoting movement of the flag 2 is stopped immediately after the semi-instantaneous or instantaneous display mechanism 30 completes its own jumping to complete a stable display state in which there is no ongoing transition in the state- 2 sector (2B).

In a variant shown in the figures, this semi-immediate or immediate indication mechanism 30 is a semi-immediate or immediate jump indicator 30.

In another alternative, the semi-immediate or immediate jump indicator 30 is a semi-immediate or immediate jump days indicator 30.

If the semi-immediate or immediate jump indicator 30 according to the first embodiment includes the flag 2 device 1, the forward pivoting movement of the flag 2 is immediately or immediately preceded by the indication mechanism 30, At least partially indicating a first sector (2A) indicating a transition in progress in the state change opening (3) before executing its own jump; The return pivoting movement of the flag 2 is stopped immediately after the semi-instantaneous or instantaneous display mechanism 30 completes its own jumping to complete a second And the sector 2B is displayed.

The invention also relates to a watch movement (100) comprising a drive element (7) for driving the state change indicator device (1) or comprising a semi-immediate or immediate jump indicator (30).

The present invention also relates to a watch 1000 including such a movement 100 or such a semi-immediate or immediate jump indicator 30 or such a status change indicator device, (7) for driving the light source (1).

Overall, the present invention provides a reliable and economical solution to the problem posed. A small number of components result in additional mechanisms that are easy to insert into existing calibers. If desired, a modification with the joint connecting lever of the second embodiment of Fig. 9 can be used to enable the dense section of the movement to be used, and to allow the lever and flag to be combined in the best manner so as not to interfere with adjacent components do.

Modification of the indication disk relative to the size to which the jump is directed is limited to incising additional slots for the flag opening 6, in the case of days or months in the above-mentioned non-limiting embodiment.

In the first embodiment, modification of the main display face is also limited to cutting the flag opening 3 close to the display window 25 which forms an opening for the size to which the jump is directed.

The insertion of this flag aperture 3 animates this main display and provides the reliability of use for the user since the parts of the flag are very easy to interpret.

The above-described mechanism may be used to direct any type of jump.

Although a jump of a time jump or a day of the month is a desirable application, other applications are also conceivable where the jump is performed immediately or semi-immediately, for example, from the daytime to the nighttime / nighttime to the daytime .

Claims (20)

A mechanical state change indicator device (1) for a semi-immediate or immediate indication mechanism (30) by jumps of a predetermined magnitude driven by a drive element (7) of a movement (100) The device 1 includes a state change indication indicator 2 for indicating the transition between two stable display states of the size of the auxiliary state change indicator 3 and the state change indication indicator 2, Wherein the indicator (2) is moveable by the drive element (7) indirectly, by means of the drive element (7), against the elastic return means (19) And in a discontinuous mechanical state change indicator device,
Characterized in that the device (1) comprises a drive pinion (9) mounted to be directly or indirectly driven by the drive element (7), the drive pinion (9) In a discontinuous manner to control the pivoting movement of the star wheel 10 to control each jump of the semi-instantaneous or immediate indicator mechanism 30 against the jumper 26 applied against the star wheel 10, And the jumper 26 drives the beak 14 by means of the teeth 11 positioned between the spaces 12 so that the beak 14 is displaced by two successive teeth < RTI ID = 0.0 > The lever 13 is formed by the beak 14 of the lever 13 which controls the pivot movement and the position return of the indicator 2 every time it passes between the spaces 12, The first support arm 15 of the indicator 2 and the second support arm 15 of the indicator 2 Including 16, or mechanical conditions change indicator device, characterized in that for controlling the displacement of the indicator (2). The method according to claim 1,
The lever 13 is composed of a single member and pivots about a pivot axis D4 and is provided with a stable balance (not shown) corresponding to the stop of the beak 14 in one of the tooth spaces 12 And is supported by two successive toothed portions (11) of the star wheel (10) by the action of the elastic return means (19) formed by at least one spring, the lever Is moved away from the stable equilibrium position by the influence of the pivot movement of the star wheel 10 about the star pivot axis D3 by the action of the drive pinion 9 driven by the element 7 Wherein the mechanical state change indicator device is a mechanical state change indicator device. The method according to claim 1,
The lever 13 is articulated and the first support arm 15 of the beak 14 is in a stable equilibrium state corresponding to the stop of the beak 14 in one of the tooth spaces 12. [ , The lock being supported by two successive toothed portions (11) of the star wheel (10) by the action of the elastic return means (19) formed by at least one spring, the lever Is moved away from the stable equilibrium position by the influence of the pivoting motion of the star wheel (10) by the action of the driving pinion (9) driven by the driving element (7), and the first supporting arm 15 pivots the second support arm 16 integral with the first support arm 15 and the second support arm 16 itself pivots the third support arm 16 of the indicator 2, Which is articulated to the pivot support arm 17 Wherein the mechanical state change indicator device is a mechanical state change indicator device. The method according to claim 1,
Characterized in that the second support arm (16) of the lever (13) comprises a rack (40) arranged to pivot the support pinion (41) of the indicator (2) in an interdependent manner Change indicator device. 5. The method of claim 4,
Characterized in that the indicator (2) comprises a moveable hand (42) or disc relative to the auxiliary state change indicator (3) formed by the guide mark (43). The method according to claim 1,
The mechanical state change indicator device is a state change indicator (1) for the indicator device (30) in a semi-instantaneous or immediate jump mode driven by a drive element (7) formed by a cannon pinion of a watch movement (100) The device 1 is urged by the elastic return means 19 against the star wheel 10 and by the action of the jumper 26 which actuates the instantaneous jumping of the indicator mechanism 30 immediately or immediately A minute wheel 8 coupled with the cannon pinion 7 for discontinuously driving the star wheel 10 to control the pivot movement of the star wheel 10 and the jumping of the star wheel 10; And a drive pinion (9) mounted to pivot in an interdependent manner. The method according to claim 6,
The cannon pinion 7 is driven by the drive pinion 9 and the star wheel 10 during the jump of the star wheel 10 by the starter wheel 7 held by the jumper 20 returned by the spring 21, (6) is provided with a flag opening (6) as many as the number of time display positions, and the flag openings (6) Is arranged at a position overlapping with the auxiliary state change display part (3) formed by the state change opening to allow the indication of the indicator (2) formed by the state change indicator (3). The method according to claim 1,
The device 1 comprises a status change indicator 1 for a semi-immediate or immediate jump indication mechanism 30 for the tasks of a month driven by a drive element 7 formed by a cannon pinion of a watch movement 100, The star wheel 10 is pivoted by the action of the jumper 26 applied against the star wheel 10 by the elastic returning means 19 and the star wheel 10 10 directly or indirectly with the cannon pinion 7 for discontinuously driving the star wheel 10 to control the jumping of the star wheel 10, And a drive pinion (9) mounted to pivotally move in an interdependent manner with a wheel that actuates the mechanical state change indicator device. 9. The method of claim 8,
During the jump of the star wheel 10, by the drive pinion 9 and the star wheel 10, the cannon pinion 7 periodically drives one star wheel held by the jumper returned by the spring, Wherein said one disk (60) has a flag opening (6) by the number of time display positions and each said flag opening (6) Is arranged at a position overlapping the auxiliary state change display part (3) formed by the change opening. The method according to claim 1,
Wherein the indicator (2) includes a state change indication flag, the state change indication flag is movable with respect to the auxiliary state change display part (3) formed by the state change opening, and the flag (2) And a second sector (2B) indicating a stable display state in which there is no transition in progress. ≪ Desc / Clms Page number 13 > 11. The method of claim 10,
Such that when the beak 14 is supported by the single tooth 11 of the star wheel 10, the first sector 2A, which indicates an ongoing transition, faces the state change opening, Each time the first sector 14 is stopped in one of the tooth spaces 12 and is supported by the two successive teeth 11 of the star wheel 10, the second sector 2B , Said lever (13) controlling said flag (2) being integral with one of its ends, so that said lever (13) faces said state change opening. The method according to claim 1,
Characterized in that the mechanical state change indicator device is a further autonomous mechanism and comprises a bridge supporting the lever (13) and a drive pinion (9) arranged to be driven directly or indirectly by the drive element (7) The drive pinion 9 is controlled by the elastic return means 19 so as to control each half of the semi-instantaneous or immediate display mechanism 30 against the jumper 26 which is applied against the star wheel 10 Discontinuously drives the star wheel 10 to control the pivoting movement of the star wheel 10 and the jumper 26 is moved by the teeth 11 positioned between the spaces 12, 14 controlling the pivoting and position return of the indicator 2 every time it passes between two successive tooth spacings 12 of the star wheel 10 In the beak 14, And the lever 13 includes a first support arm 15 of the beak 14 and a second support arm 16 of the indicator 2 or controls the displacement of the indicator 2 Wherein the mechanical state change indicator device is a mechanical state change indicator device. CLAIMS 1. A jumping display mechanism with jumps of a predetermined size driven by a movement element (100) comprising a mechanical state change indicator device (1) according to claim 1 or a driving element (7) of a watch (1000)
Wherein the state change indicator device (10) executes the jump in accordance with the reciprocating pivot movement of the indicator (2) for each jump of the jump indication mechanism (30). CLAIMS 1. A jumping display mechanism with jumps of a predetermined size driven by a movement element (100) or a driving element (7) of a watch (1000) comprising a mechanical state change indicator device (1)
The state change indicator device 10 executes the jump in accordance with the reciprocating pivot movement of the indicator 2 for each jump of the jump indication mechanism 30,
Wherein the jump indication mechanism is a display mechanism (30) at the time of jump. A jump indication mechanism with jump of a predetermined magnitude driven by a movement element (100) comprising a mechanical state change indicator device (1) according to claim 9 or a drive element (7) of a watch (1000)
The state change indicator device 10 executes the jump in accordance with the reciprocating pivot movement of the indicator 2 for each jump of the jump indication mechanism 30,
Wherein the jump display mechanism is a jump-date indicating mechanism (30). CLAIMS 1. Jump display mechanism by jumps of a predetermined size driven by a movement element (100) or a drive element (7) of a watch (1000) comprising a mechanical state change indicator device (1)
The state change indicator device 10 executes the jump in accordance with the reciprocating pivot movement of the indicator 2 for each jump of the jump indication mechanism 30,
The forward pivoting movement of the indicator 2 is at least partially indicated by the first sector 2A indicating the transition in progress at the state change opening before the jump indicating mechanism 30 performs its own jump And the return pivot movement of the indicator 2 is stopped after the jump display mechanism 30 completes its own jumping operation to complete a second sector indicating a stable display state in which there is no transition in progress in the state change opening as a whole (2B). ≪ / RTI > A watch movement (100) comprising a jump indication mechanism (30) by jumps of a predetermined size according to claim 13,
Characterized in that the watch movement (100) comprises a drive element (7) for driving the mechanical state change indicator device (1). A watch (1000) comprising a watch movement (100) according to claim 17,
Characterized in that the watch (1000) comprises a drive element (7) for driving the mechanical state change indicator device (1). A watch (1000) including a jump indication mechanism (30) by jumps of a predetermined size according to claim 13,
Characterized in that the watch (1000) comprises a drive element (7) for driving the mechanical state change indicator device (1). A clock (1000) comprising a mechanical change indicator device (1) according to claim 1,
Characterized in that the watch (1000) comprises a drive element (7) for driving the mechanical state change indicator device (1).

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